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Biosafety in the Mycobacteriology
Laboratory
Dr Christopher Gilpin
TB laboratory Strengthening and Diagnostics Unit
WHO Geneva
Why is Biosafety Needed in the
Mycobacteriology Laboratory?
• Risk of infection with Mycobacterium tuberculosis
is 3-9x higher for TB lab workers than for other lab
workers…depending on activities performedworkers…depending on activities performed
• Infection usually results from unrecognized
production of infectious aerosols containing
tubercle bacilli
• Infection can occur from needle sticks, through
broken skin, etc.
What is Biosafety?
The application of a combination of administrative
controls, containment principles, laboratory
practices and procedures, safety equipment, and practices and procedures, safety equipment, and
laboratory facilities to enable laboratorians to work
safely with potentially infectious microorganisms
Administrative controls
• Supervision by an experienced scientist
• All personnel are well trained, proficient, aware of
hazards, follow rules hazards, follow rules
• Routine medical surveillance
• Biosafety and operations manuals
• Emergency plans for spills, accidents, etc.
• Appropriate facilities and safety equipment
Good Laboratory Practices
• Restrict or limit access when working
• Biohazard warning signs
• Prohibit eating, drinking and smoking• Prohibit eating, drinking and smoking
• Prohibit mouth pipetting
• Minimize splashes and aerosols
• Decontaminate work surfaces daily
• Decontaminate and dispose of waste
appropriately
Containment
• Primary Containment: protect worker and immediate laboratory environment– good microbiologic techniques– good microbiologic techniques
– properly maintained safety equipment
• Secondary Containment: protect the environment outside the laboratory– facility design
– waste management
Biosafety Level (BSL)
• Conditions under which an infectious agent can ordinarily be safely handled.
• Conditions are a combination of:• Conditions are a combination of:– laboratory practices and techniques
– safety equipment
– laboratory facilities
• Usually agent and procedure specific
Biosafety Level (BSL)
• Biosafety level 1 (BSL-1) is the basic level of protection and is appropriate for agents that are not known to cause disease in normal, healthy humans.
• Biosafety level 2 (BSL-2) is appropriate for handling moderate-risk • Biosafety level 2 (BSL-2) is appropriate for handling moderate-risk agents that cause human disease of varying severity by ingestion or through percutaneous or mucous membrane exposure.
• Biosafety level 3 (BSL-3) is appropriate for agents with a known potential for aerosol transmission, for agents that may cause serious and potentially lethal infections and that are indigenous or exotic in origin.
• Biosafety level 4 (BSL-4) is appropriate to exotic agents that pose a high individual risk of life-threatening disease by infectious aerosols and for which no treatment is available.
Risk Group Classifications and which Biosafety Level (BSL)
RISK GROUPCLASSIFICATION
WORLD HEALTH ORGANIZATIONLABORATORY BIOSAFETY MANUAL3RD EDITION 2004*
Risk Group 1 (No or low individual and community risk)
A microorganism that is unlikely to cause human or animal disease.
Risk Group 2 (Moderate individual risk; low community risk)
A pathogen that can cause human or animal disease but is unlikely to be a serious hazard to
laboratory workers, the community, livestock or the environment. Laboratory exposures may
cause serious infection, but effective treatment and preventive measures are available and
BSL 1
cause serious infection, but effective treatment and preventive measures are available and
the risk of spread of infection is limited.
Risk Group 3 (High individual risk; low community risk)
A pathogen that usually causes serious human or animal disease but does not ordinarily
spread from one infected individual to another. Effective treatment and preventive measures
are available.
Risk Group 4 (High individual and community risk)
A pathogen that usually causes serious human or animal disease and that can be readily
transmitted from one individual to another, directly or indirectly. Effective treatment and
preventive measures are not usually available.
Where does TB fit?
? BSL 3
?BSL 2
? BSL 4
Determining which BSL to use
• The laboratory director assesses potential risks for work
with a specific agent and assigns a BSL
• Recommended BSLs for many of the infectious agents
have been developedhave been developed
• Lab directors may specify more or less stringent practices
when information is available to suggest altered risk
– e.g., increased BSL for XDR TB cultures or staff at
greater risk
New approaches are based onBio-Risk Assessment
• Pathogenicity of the infectious agent
• Route of transmission
• Agent stability and infectious dose
• Concentration of agent• Concentration of agent
• Type of laboratory procedures to be done
• Availability of effective prophylaxis or therapy
• Skill level and vulnerability of at-risk personnel
Biosafety Level 2 (BSL2)
• Suitable for work involving agents of moderate potential hazard to personnel and the environment
– Mycobacterium species other than members of – Mycobacterium species other than members of
the M. tuberculosis complex
– non-aerosol generating manipulations of clinical
specimens from TB patients
• BSC is to be used for aerosol generating procedures
BSL2 – Microbiological Practices
• Restrict or limit access when working
• Biohazard warning signs
• Prohibit eating, drinking and smoking
• Prohibit mouth pipetting
• Minimize splashes and aerosols
• Decontaminate work surfaces daily
• Decontaminate wastes
BSL2 – Primary containment
• Protective clothing - lab coat, gloves, eye protection
• Class I or II Biosafety Cabinet used for manipulations that generate splashes or manipulations that generate splashes or aerosols
BSL2 – Secondary containment
• Laboratories have lockable doors and are separated from public areas
• Air flows into lab without re-circulation to non-lab areasnon-lab areas
• Sink for hand washing
• Impermeable, easily cleaned work surfaces
• Eyewash readily available
• Autoclave available
• Windows fitted with flyscreens
Biosafety Level 3 (BSL3)
• Suitable for work with infectious agents which may cause serious or potentially lethal disease as a result of exposure by the inhalation route.inhalation route.
– members of the M. tuberculosis complex
BSL3 – Microbiological Practices
BSL2 practices plus:
• Work in a certified biosafety cabinet
– certified at least annually
• Use aerosol-containing equipment• Use aerosol-containing equipment
– aerosol-containment centrifuge rotors
• Decontaminate spills promptly
BSL3 – Primary containment
• Protective clothing, gloves, eye protection
• Respiratory protection as needed
– N95 respirator or equivalent
• Class I or II Biosafety Cabinet used for all • Class I or II Biosafety Cabinet used for all open manipulation of agents
– rotors
• Decontaminate spills promptly
BSL3 – Secondary containment
BSL2 secondary containment plus:
• Controlled access to a separate area
• Double door entry
• Directional inward airflow• Directional inward airflow
• Single-pass air; 6-12 air changes/hour
• Room penetrations sealed to enable fumigation
• Walls, floors and ceilings are water resistant for easy cleaning
Are all of the requirements for a BSL-3 Laboratory necessary?
If a facility does not have all required BSL3 features (e.g.sealed
penetrations, solid ceiling), an acceptable level of safety for
conducting routine procedures, including culture, may be
achieved in a BSL2 facility providing:
• Directional inward airflow is maintained and exhaust • Directional inward airflow is maintained and exhaust
air is discharged to the outside
• Access to the laboratory is restricted when work is
being performed
• The recommendations for BSL3 practices,
procedures, and safety equipment are rigorously
followed
Biosafety Guidance
• Consensus recommendations for minimum biosafety requirements for – Direct AFB-smear microscopy– Processing specimens to concentrate bacilli for
smear preparation,culture inoculation or direct smear preparation,culture inoculation or direct DST and molecular tests
– Manipulating cultures for smear, subculture, identification, DST, molecular tests
• Based on a risk assessment for each TB diagnostic procedure– generation of infectious aerosols– concentration of bacilli
Biosafety Guidance - PPE
• Gowns should be worn in the laboratory
• Gloves should be worn while manipulating specimens and working in a BSC– Proper hand washing as a cornerstone of
biosafetybiosafety
• Conduct a risk assessment to determine the need for other PPEs such as N95 respirators
Biosafety Guidance AFB Microscopy
Limited risk of generating infectious aerosols
• Work can be done on an open bench– restricted access to the laboratory– separate bench for smear-preparation
• Adequately ventilated laboratory– 6-12 ACH, directional airflow– Natural or mechanical ventilation
• Proper disposal of infectious material
Biosafety Guidance: Processing sputum specimens for culture
inoculation and/or direct molecular tests (1)
Moderate risk of generating infectious aerosols during centrifugation and specimen manipulation
• Laboratories must have restricted access and be separated from public areas
• Impermeable surfaces for easy cleaning
• Air flows into lab without re-circulation to non-lab areas (directional airflow)– 6-12 ACH, passive or mechanical ventilation– closed windows– All work MUST be performed within a certified BSC
• Proper disposal of infectious material
Biosafety Guidance: Manipulating cultures for smear preparation,
identification tests, DST, or molecular tests
High risk of generating infectious aerosols during manipulation of liquid suspensions
–Work done in a containment lab which has restrictedaccess and a double door entryaccess and a double door entry
• Impermeable surfaces for easy cleaning– sealing room for fumigation is not required
• Air flows into lab without re-circulation to non-lab areas (directional airflow)– 6-12 ACH, mechanical ventilation, sealed windows
• Autoclave available on site
Biosafety Guidance: Processing sputum specimens for culture
inoculation and/or direct molecular tests (2)
Moderate risk of generating infectious aerosols during centrifugation and specimen manipulation
• Class I or II Biosafety Cabinet used for all open manipulation of agents– BSCs must be properly installed and certified at least – BSCs must be properly installed and certified at least
annually– BSC exhaust may be
• ducted to outside using a hard duct or thimble fitting• recirculated into the room if assured that the BSC is
functioning properly
• Use aerosol-containment centrifuge rotors
Biosafety Guidance: Essential requirements
• Double door airlock
• Separate air inlet
• Venting of BSC via thimble
• Aerosol containment
• Negative pressure monitoring
• Uni-directional airflow
• PPE
• Autoclave for waste disposal
References: WHO TB Biosafety Manual 2010 (under review)
• CDC/NIH Biosafety in Microbiological and Biomedical Laboratories, 5th Edition. (2007) http://www.cdc.gov/od/ohs/biosfty/bmbl5/bmbl5toc.htm
• Laboratory biosafety manual. 3rd edition, 2004. WHO. http://www.who.int/csr/resources/publications/biosafety/en/Biosafety7.pdf
• Biosafety recommendations for the contained use of M. tuberculosis complex isolates in industrialised countries. P Herman et al, 2006. Scientific Institute isolates in industrialised countries. P Herman et al, 2006. Scientific Institute of Public Health, Brussels, Belgium. http://www.biosecurite.be/CU/PDF/Mtub_Final_DL.pdf
• Interim Laboratory Biosafety Guidance for Extensively Drug-Resistant (XDR) M. tuberculosis strains. http://www.cdc.gov/tb/XDRTB/BiosafetyGuidance_xdrtb.htm
Acknowledgements
– Véronique Vincent
– CN Paramasivan
– Chris Gilpin
– Daniela Cirillo
– Jean Joly
– Peter van't Erve
– Philippe Dubois
– Sang Jae Kim
– Shanna Nesby – Jenny Allen
– John Ridderhof
– Jon Crane
– Knut Feldmann
– Moses Joloba
– Paul Jensen
– Shanna Nesby
– Thomas Shinnick
– Andrew Ramsay
– Karin Weyer
– May Chu
– Nicoletta Previsani
– Sebastien Cognat